Hugh Herr (born October 25, 1964) is an American rock climber,
engineer, and
biophysicist. When he was young, both of his legs were amputated below the knee during a blizzard in a rock climbing trip.[1] After months of surgeries and rehabilitation, Herr began climbing again, using specialized prostheses he designed for himself, becoming the first person with a major amputation to perform in a sport on par with elite-level, able-bodied persons.[2][3][dubious –
discuss] He holds the patents to the Rheo Knee,[4] an active ankle-foot orthosis, which is the world's first powered ankle-foot prosthesis.[5]
Early life
The youngest of five siblings of a
Mennonite family from
Lancaster, Pennsylvania, Hugh Herr was a prodigy rock climber: by age 8, he had scaled the face of the 11,627-foot (3,544 m)
Mount Temple in the
Canadian Rockies, and by 17 he was acknowledged to be one of the best climbers in the United States.[1]
In January 1982, after having ascended a difficult technical ice route in Huntington Ravine on
Mount Washington in
New Hampshire, Herr and fellow climber Jeff Batzer were caught in a
blizzard and became disoriented, finally descending into the
Great Gulf where they passed three nights in −20 °F (−29 °C) degree temperatures. By the time they were rescued, the climbers had severe
frostbite. Both of Herr's legs had to be
amputated below the
knees; Batzer lost his lower left
leg, the
toes on his right
foot, and the thumb and
fingers on his right
hand. During the rescue attempt, volunteer Albert Dow was killed by an
avalanche.[1]
Following months of
surgeries and
rehabilitation, Herr was doing what doctors told him was unthinkable: climbing again. Using specialized
prostheses that he designed, he created prosthetic feet with high toe stiffness that made it possible to stand on small rock edges the width of a coin, and
titanium-spiked feet that assisted him in ascending steep ice walls. He used these prostheses to alter his height to avoid awkward body positions and to grab hand and foot holds previously out of reach. His height could range from five to eight feet (1.5 to 2.4 m). As a result of using the prostheses, Herr climbed at a more advanced level than he had before the accident, making him the first person with a major amputation to perform in a sport on par with elite-level, able-bodied persons.[2][3]
Career
While a postdoctoral fellow at MIT in biomedical devices, Herr began working on advanced leg
prostheses and
orthoses, devices that emulate the functionality of the human leg.[1] He is now a professor at the
MIT Media Lab, where he directs the
Biomechatronics research group and co-directs the K. Lisa Yang Center for Bionics.[6][7][8] At the center, he focuses on developing wearable robotic systems that serve to augment human physical capability. Most of what he designs is not for him, but for others to whose difficulties he can relate.[citation needed] The devices he designs are advancing an emerging field of engineering science that applies principles of biomechanics and neural control to guide the designs of human rehabilitation and augmentative devices.[9] The goal is to rehabilitate individuals that have undergone limb amputation or have a pathology, and also to augment human physical capability for those with normal intact physiologies.
Herr holds the patents to a computer-controlled artificial knee,[10] commercially available as the Rheo Knee[4] an active ankle-foot orthosis, and the world's first powered ankle-foot prosthesis.[5] The computer-controlled knee, which is outfitted with a microprocessor that continually senses the joint's position and the loads applied to the limb, was named one of the Top Ten Inventions in the health category by Time magazine in 2004.[11] The robotic ankle-foot prosthesis, which mimics the action of a biological leg and, for the first time, provides transtibial amputees with a natural gait, was named to the same Time top-ten list in 2007.[12]
Oscar Pistorious
Herr was a member of a team of seven experts in biomechanics and physiology from six universities that conducted research on the mechanics of
Oscar Pistorius' running blades. The South African bilateral amputee track athlete was banned by the International Association of Athletics Federations (IAAF) from running in able-bodied events, as previous research had shown the blades gave him a competitive advantage.[13] A portion of these results were presented to the Court of Arbitration for Sport (CAS) in
Lausanne, Switzerland in May 2008, by Herr and colleague Rodger Kram which resulted in reversing the ban. This allowed Pistorius to become the first disabled sprint runner to qualify against able-bodied athletes for an Olympic event.[14] The full findings of the team's experiments were published in the June 18, 2009 issue of the Journal of Applied Physiology.[15]
With the Providence VA Center for Restorative and Regenerative Medicine and Brown University, a $7.2 million grant from the US Department of Veterans Affairs to create "biohybrid" limbs to restore natural function to amputees. (2004)
^Carswell, Lindsay (February 12, 2005).
"New Robotic Knee". Science Central. Archived from
the original on October 29, 2010. Retrieved December 31, 2016.
^Clune, Russ (Spring 2009).
"Vandals, Shawangunks". Patagonia – Field Report. Patagonia, Inc. Archived from
the original on June 30, 2009. Retrieved December 24, 2009.
^Green, Stewart (2001). Rock Climbing New England. Guilford CT: Falcon Books. p. 100.
ISBN978-1-56044-811-2.
^Smoot, Jeff (2000).
"A Walk in the Park". ClimbingWashington.com. Archived from
the original on April 8, 2001. Retrieved December 27, 2009.